Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Darren Hart | 1913 | 99.43% | 1 | 33.33% |
Naresh Kamboju | 6 | 0.31% | 1 | 33.33% |
Shuah Khan | 5 | 0.26% | 1 | 33.33% |
Total | 1924 | 3 |
/****************************************************************************** * * Copyright © International Business Machines Corp., 2006-2008 * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * DESCRIPTION * This test excercises the futex syscall op codes needed for requeuing * priority inheritance aware POSIX condition variables and mutexes. * * AUTHORS * Sripathi Kodi <sripathik@in.ibm.com> * Darren Hart <dvhart@linux.intel.com> * * HISTORY * 2008-Jan-13: Initial version by Sripathi Kodi <sripathik@in.ibm.com> * 2009-Nov-6: futex test adaptation by Darren Hart <dvhart@linux.intel.com> * *****************************************************************************/ #include <errno.h> #include <limits.h> #include <pthread.h> #include <stdio.h> #include <stdlib.h> #include <signal.h> #include <string.h> #include "atomic.h" #include "futextest.h" #include "logging.h" #define TEST_NAME "futex-requeue-pi" #define MAX_WAKE_ITERS 1000 #define THREAD_MAX 10 #define SIGNAL_PERIOD_US 100 atomic_t waiters_blocked = ATOMIC_INITIALIZER; atomic_t waiters_woken = ATOMIC_INITIALIZER; futex_t f1 = FUTEX_INITIALIZER; futex_t f2 = FUTEX_INITIALIZER; futex_t wake_complete = FUTEX_INITIALIZER; /* Test option defaults */ static long timeout_ns; static int broadcast; static int owner; static int locked; struct thread_arg { long id; struct timespec *timeout; int lock; int ret; }; #define THREAD_ARG_INITIALIZER { 0, NULL, 0, 0 } void usage(char *prog) { printf("Usage: %s\n", prog); printf(" -b Broadcast wakeup (all waiters)\n"); printf(" -c Use color\n"); printf(" -h Display this help message\n"); printf(" -l Lock the pi futex across requeue\n"); printf(" -o Use a third party pi futex owner during requeue (cancels -l)\n"); printf(" -t N Timeout in nanoseconds (default: 0)\n"); printf(" -v L Verbosity level: %d=QUIET %d=CRITICAL %d=INFO\n", VQUIET, VCRITICAL, VINFO); } int create_rt_thread(pthread_t *pth, void*(*func)(void *), void *arg, int policy, int prio) { int ret; struct sched_param schedp; pthread_attr_t attr; pthread_attr_init(&attr); memset(&schedp, 0, sizeof(schedp)); ret = pthread_attr_setinheritsched(&attr, PTHREAD_EXPLICIT_SCHED); if (ret) { error("pthread_attr_setinheritsched\n", ret); return -1; } ret = pthread_attr_setschedpolicy(&attr, policy); if (ret) { error("pthread_attr_setschedpolicy\n", ret); return -1; } schedp.sched_priority = prio; ret = pthread_attr_setschedparam(&attr, &schedp); if (ret) { error("pthread_attr_setschedparam\n", ret); return -1; } ret = pthread_create(pth, &attr, func, arg); if (ret) { error("pthread_create\n", ret); return -1; } return 0; } void *waiterfn(void *arg) { struct thread_arg *args = (struct thread_arg *)arg; futex_t old_val; info("Waiter %ld: running\n", args->id); /* Each thread sleeps for a different amount of time * This is to avoid races, because we don't lock the * external mutex here */ usleep(1000 * (long)args->id); old_val = f1; atomic_inc(&waiters_blocked); info("Calling futex_wait_requeue_pi: %p (%u) -> %p\n", &f1, f1, &f2); args->ret = futex_wait_requeue_pi(&f1, old_val, &f2, args->timeout, FUTEX_PRIVATE_FLAG); info("waiter %ld woke with %d %s\n", args->id, args->ret, args->ret < 0 ? strerror(errno) : ""); atomic_inc(&waiters_woken); if (args->ret < 0) { if (args->timeout && errno == ETIMEDOUT) args->ret = 0; else { args->ret = RET_ERROR; error("futex_wait_requeue_pi\n", errno); } futex_lock_pi(&f2, NULL, 0, FUTEX_PRIVATE_FLAG); } futex_unlock_pi(&f2, FUTEX_PRIVATE_FLAG); info("Waiter %ld: exiting with %d\n", args->id, args->ret); pthread_exit((void *)&args->ret); } void *broadcast_wakerfn(void *arg) { struct thread_arg *args = (struct thread_arg *)arg; int nr_requeue = INT_MAX; int task_count = 0; futex_t old_val; int nr_wake = 1; int i = 0; info("Waker: waiting for waiters to block\n"); while (waiters_blocked.val < THREAD_MAX) usleep(1000); usleep(1000); info("Waker: Calling broadcast\n"); if (args->lock) { info("Calling FUTEX_LOCK_PI on mutex=%x @ %p\n", f2, &f2); futex_lock_pi(&f2, NULL, 0, FUTEX_PRIVATE_FLAG); } continue_requeue: old_val = f1; args->ret = futex_cmp_requeue_pi(&f1, old_val, &f2, nr_wake, nr_requeue, FUTEX_PRIVATE_FLAG); if (args->ret < 0) { args->ret = RET_ERROR; error("FUTEX_CMP_REQUEUE_PI failed\n", errno); } else if (++i < MAX_WAKE_ITERS) { task_count += args->ret; if (task_count < THREAD_MAX - waiters_woken.val) goto continue_requeue; } else { error("max broadcast iterations (%d) reached with %d/%d tasks woken or requeued\n", 0, MAX_WAKE_ITERS, task_count, THREAD_MAX); args->ret = RET_ERROR; } futex_wake(&wake_complete, 1, FUTEX_PRIVATE_FLAG); if (args->lock) futex_unlock_pi(&f2, FUTEX_PRIVATE_FLAG); if (args->ret > 0) args->ret = task_count; info("Waker: exiting with %d\n", args->ret); pthread_exit((void *)&args->ret); } void *signal_wakerfn(void *arg) { struct thread_arg *args = (struct thread_arg *)arg; unsigned int old_val; int nr_requeue = 0; int task_count = 0; int nr_wake = 1; int i = 0; info("Waker: waiting for waiters to block\n"); while (waiters_blocked.val < THREAD_MAX) usleep(1000); usleep(1000); while (task_count < THREAD_MAX && waiters_woken.val < THREAD_MAX) { info("task_count: %d, waiters_woken: %d\n", task_count, waiters_woken.val); if (args->lock) { info("Calling FUTEX_LOCK_PI on mutex=%x @ %p\n", f2, &f2); futex_lock_pi(&f2, NULL, 0, FUTEX_PRIVATE_FLAG); } info("Waker: Calling signal\n"); /* cond_signal */ old_val = f1; args->ret = futex_cmp_requeue_pi(&f1, old_val, &f2, nr_wake, nr_requeue, FUTEX_PRIVATE_FLAG); if (args->ret < 0) args->ret = -errno; info("futex: %x\n", f2); if (args->lock) { info("Calling FUTEX_UNLOCK_PI on mutex=%x @ %p\n", f2, &f2); futex_unlock_pi(&f2, FUTEX_PRIVATE_FLAG); } info("futex: %x\n", f2); if (args->ret < 0) { error("FUTEX_CMP_REQUEUE_PI failed\n", errno); args->ret = RET_ERROR; break; } task_count += args->ret; usleep(SIGNAL_PERIOD_US); i++; /* we have to loop at least THREAD_MAX times */ if (i > MAX_WAKE_ITERS + THREAD_MAX) { error("max signaling iterations (%d) reached, giving up on pending waiters.\n", 0, MAX_WAKE_ITERS + THREAD_MAX); args->ret = RET_ERROR; break; } } futex_wake(&wake_complete, 1, FUTEX_PRIVATE_FLAG); if (args->ret >= 0) args->ret = task_count; info("Waker: exiting with %d\n", args->ret); info("Waker: waiters_woken: %d\n", waiters_woken.val); pthread_exit((void *)&args->ret); } void *third_party_blocker(void *arg) { struct thread_arg *args = (struct thread_arg *)arg; int ret2 = 0; args->ret = futex_lock_pi(&f2, NULL, 0, FUTEX_PRIVATE_FLAG); if (args->ret) goto out; args->ret = futex_wait(&wake_complete, wake_complete, NULL, FUTEX_PRIVATE_FLAG); ret2 = futex_unlock_pi(&f2, FUTEX_PRIVATE_FLAG); out: if (args->ret || ret2) { error("third_party_blocker() futex error", 0); args->ret = RET_ERROR; } pthread_exit((void *)&args->ret); } int unit_test(int broadcast, long lock, int third_party_owner, long timeout_ns) { void *(*wakerfn)(void *) = signal_wakerfn; struct thread_arg blocker_arg = THREAD_ARG_INITIALIZER; struct thread_arg waker_arg = THREAD_ARG_INITIALIZER; pthread_t waiter[THREAD_MAX], waker, blocker; struct timespec ts, *tsp = NULL; struct thread_arg args[THREAD_MAX]; int *waiter_ret; int i, ret = RET_PASS; if (timeout_ns) { time_t secs; info("timeout_ns = %ld\n", timeout_ns); ret = clock_gettime(CLOCK_MONOTONIC, &ts); secs = (ts.tv_nsec + timeout_ns) / 1000000000; ts.tv_nsec = ((int64_t)ts.tv_nsec + timeout_ns) % 1000000000; ts.tv_sec += secs; info("ts.tv_sec = %ld\n", ts.tv_sec); info("ts.tv_nsec = %ld\n", ts.tv_nsec); tsp = &ts; } if (broadcast) wakerfn = broadcast_wakerfn; if (third_party_owner) { if (create_rt_thread(&blocker, third_party_blocker, (void *)&blocker_arg, SCHED_FIFO, 1)) { error("Creating third party blocker thread failed\n", errno); ret = RET_ERROR; goto out; } } atomic_set(&waiters_woken, 0); for (i = 0; i < THREAD_MAX; i++) { args[i].id = i; args[i].timeout = tsp; info("Starting thread %d\n", i); if (create_rt_thread(&waiter[i], waiterfn, (void *)&args[i], SCHED_FIFO, 1)) { error("Creating waiting thread failed\n", errno); ret = RET_ERROR; goto out; } } waker_arg.lock = lock; if (create_rt_thread(&waker, wakerfn, (void *)&waker_arg, SCHED_FIFO, 1)) { error("Creating waker thread failed\n", errno); ret = RET_ERROR; goto out; } /* Wait for threads to finish */ /* Store the first error or failure encountered in waiter_ret */ waiter_ret = &args[0].ret; for (i = 0; i < THREAD_MAX; i++) pthread_join(waiter[i], *waiter_ret ? NULL : (void **)&waiter_ret); if (third_party_owner) pthread_join(blocker, NULL); pthread_join(waker, NULL); out: if (!ret) { if (*waiter_ret) ret = *waiter_ret; else if (waker_arg.ret < 0) ret = waker_arg.ret; else if (blocker_arg.ret) ret = blocker_arg.ret; } return ret; } int main(int argc, char *argv[]) { int c, ret; while ((c = getopt(argc, argv, "bchlot:v:")) != -1) { switch (c) { case 'b': broadcast = 1; break; case 'c': log_color(1); break; case 'h': usage(basename(argv[0])); exit(0); case 'l': locked = 1; break; case 'o': owner = 1; locked = 0; break; case 't': timeout_ns = atoi(optarg); break; case 'v': log_verbosity(atoi(optarg)); break; default: usage(basename(argv[0])); exit(1); } } ksft_print_header(); ksft_print_msg("%s: Test requeue functionality\n", basename(argv[0])); ksft_print_msg( "\tArguments: broadcast=%d locked=%d owner=%d timeout=%ldns\n", broadcast, locked, owner, timeout_ns); /* * FIXME: unit_test is obsolete now that we parse options and the * various style of runs are done by run.sh - simplify the code and move * unit_test into main() */ ret = unit_test(broadcast, locked, owner, timeout_ns); print_result(TEST_NAME, ret); return ret; }
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